[524] | 1 | ! |
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[1279] | 2 | ! $Id: calfis.F 1987 2014-02-24 15:05:47Z emillour $ |
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[524] | 3 | ! |
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| 4 | C |
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| 5 | C |
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[1146] | 6 | SUBROUTINE calfis(lafin, |
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[1279] | 7 | $ jD_cur, jH_cur, |
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[524] | 8 | $ pucov, |
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| 9 | $ pvcov, |
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| 10 | $ pteta, |
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| 11 | $ pq, |
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| 12 | $ pmasse, |
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| 13 | $ pps, |
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| 14 | $ pp, |
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| 15 | $ ppk, |
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| 16 | $ pphis, |
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| 17 | $ pphi, |
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| 18 | $ pducov, |
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| 19 | $ pdvcov, |
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| 20 | $ pdteta, |
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| 21 | $ pdq, |
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| 22 | $ flxw, |
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| 23 | $ clesphy0, |
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| 24 | $ pdufi, |
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| 25 | $ pdvfi, |
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| 26 | $ pdhfi, |
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| 27 | $ pdqfi, |
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| 28 | $ pdpsfi) |
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| 29 | c |
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| 30 | c Auteur : P. Le Van, F. Hourdin |
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| 31 | c ......... |
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[1987] | 32 | USE infotrac, ONLY: nqtot, niadv, tname |
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| 33 | USE control_mod, ONLY: planet_type, nsplit_phys |
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[1403] | 34 | |
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[524] | 35 | |
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| 36 | IMPLICIT NONE |
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| 37 | c======================================================================= |
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| 38 | c |
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| 39 | c 1. rearrangement des tableaux et transformation |
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| 40 | c variables dynamiques > variables physiques |
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| 41 | c 2. calcul des termes physiques |
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| 42 | c 3. retransformation des tendances physiques en tendances dynamiques |
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| 43 | c |
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| 44 | c remarques: |
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| 45 | c ---------- |
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| 46 | c |
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| 47 | c - les vents sont donnes dans la physique par leurs composantes |
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| 48 | c naturelles. |
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| 49 | c - la variable thermodynamique de la physique est une variable |
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| 50 | c intensive : T |
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| 51 | c pour la dynamique on prend T * ( preff / p(l) ) **kappa |
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| 52 | c - les deux seules variables dependant de la geometrie necessaires |
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| 53 | c pour la physique sont la latitude pour le rayonnement et |
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| 54 | c l'aire de la maille quand on veut integrer une grandeur |
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| 55 | c horizontalement. |
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| 56 | c - les points de la physique sont les points scalaires de la |
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| 57 | c la dynamique; numerotation: |
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| 58 | c 1 pour le pole nord |
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| 59 | c (jjm-1)*iim pour l'interieur du domaine |
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| 60 | c ngridmx pour le pole sud |
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| 61 | c ---> ngridmx=2+(jjm-1)*iim |
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| 62 | c |
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| 63 | c Input : |
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| 64 | c ------- |
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| 65 | c pucov covariant zonal velocity |
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| 66 | c pvcov covariant meridional velocity |
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| 67 | c pteta potential temperature |
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| 68 | c pps surface pressure |
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| 69 | c pmasse masse d'air dans chaque maille |
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| 70 | c pts surface temperature (K) |
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| 71 | c callrad clef d'appel au rayonnement |
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| 72 | c |
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| 73 | c Output : |
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| 74 | c -------- |
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| 75 | c pdufi tendency for the natural zonal velocity (ms-1) |
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| 76 | c pdvfi tendency for the natural meridional velocity |
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| 77 | c pdhfi tendency for the potential temperature |
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| 78 | c pdtsfi tendency for the surface temperature |
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| 79 | c |
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| 80 | c pdtrad radiative tendencies \ both input |
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| 81 | c pfluxrad radiative fluxes / and output |
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| 82 | c |
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| 83 | c======================================================================= |
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| 84 | c |
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| 85 | c----------------------------------------------------------------------- |
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| 86 | c |
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| 87 | c 0. Declarations : |
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| 88 | c ------------------ |
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| 89 | |
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| 90 | #include "dimensions.h" |
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| 91 | #include "paramet.h" |
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| 92 | #include "temps.h" |
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| 93 | |
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[1146] | 94 | INTEGER ngridmx |
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[524] | 95 | PARAMETER( ngridmx = 2+(jjm-1)*iim - 1/jjm ) |
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| 96 | |
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| 97 | #include "comconst.h" |
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| 98 | #include "comvert.h" |
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| 99 | #include "comgeom2.h" |
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[1403] | 100 | #include "iniprint.h" |
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[524] | 101 | |
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| 102 | c Arguments : |
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| 103 | c ----------- |
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[1987] | 104 | LOGICAL,INTENT(IN) :: lafin ! .true. for the very last call to physics |
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| 105 | REAL,INTENT(IN):: jD_cur, jH_cur |
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| 106 | REAL,INTENT(IN) :: pvcov(iip1,jjm,llm) ! covariant meridional velocity |
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| 107 | REAL,INTENT(IN) :: pucov(iip1,jjp1,llm) ! covariant zonal velocity |
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| 108 | REAL,INTENT(IN) :: pteta(iip1,jjp1,llm) ! potential temperature |
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| 109 | REAL,INTENT(IN) :: pmasse(iip1,jjp1,llm) ! mass in each cell ! not used |
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| 110 | REAL,INTENT(IN) :: pq(iip1,jjp1,llm,nqtot) ! tracers |
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| 111 | REAL,INTENT(IN) :: pphis(iip1,jjp1) ! surface geopotential |
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| 112 | REAL,INTENT(IN) :: pphi(iip1,jjp1,llm) ! geopotential |
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[524] | 113 | |
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[1987] | 114 | REAL,INTENT(IN) :: pdvcov(iip1,jjm,llm) ! dynamical tendency on vcov |
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| 115 | REAL,INTENT(IN) :: pducov(iip1,jjp1,llm) ! dynamical tendency on ucov |
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| 116 | REAL,INTENT(IN) :: pdteta(iip1,jjp1,llm) ! dynamical tendency on teta |
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| 117 | ! NB: pdteta is used only to compute pcvgt which is in fact not used... |
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| 118 | REAL,INTENT(IN) :: pdq(iip1,jjp1,llm,nqtot) ! dynamical tendency on tracers |
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| 119 | ! NB: pdq is only used to compute pcvgq which is in fact not used... |
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[1279] | 120 | |
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[1987] | 121 | REAL,INTENT(IN) :: pps(iip1,jjp1) ! surface pressure (Pa) |
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| 122 | REAL,INTENT(IN) :: pp(iip1,jjp1,llmp1) ! pressure at mesh interfaces (Pa) |
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| 123 | REAL,INTENT(IN) :: ppk(iip1,jjp1,llm) ! Exner at mid-layer |
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| 124 | REAL,INTENT(IN) :: flxw(iip1,jjp1,llm) ! Vertical mass flux on dynamics grid |
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[524] | 125 | |
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[1987] | 126 | ! tendencies (in */s) from the physics |
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| 127 | REAL,INTENT(OUT) :: pdvfi(iip1,jjm,llm) ! tendency on covariant meridional wind |
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| 128 | REAL,INTENT(OUT) :: pdufi(iip1,jjp1,llm) ! tendency on covariant zonal wind |
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| 129 | REAL,INTENT(OUT) :: pdhfi(iip1,jjp1,llm) ! tendency on potential temperature (K/s) |
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| 130 | REAL,INTENT(OUT) :: pdqfi(iip1,jjp1,llm,nqtot) ! tendency on tracers |
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| 131 | REAL,INTENT(OUT) :: pdpsfi(iip1,jjp1) ! tendency on surface pressure (Pa/s) |
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[524] | 132 | |
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[1987] | 133 | INTEGER,PARAMETER :: longcles = 20 |
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| 134 | REAL,INTENT(IN) :: clesphy0( longcles ) ! unused |
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[524] | 135 | |
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[1987] | 136 | |
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[524] | 137 | c Local variables : |
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| 138 | c ----------------- |
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| 139 | |
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| 140 | INTEGER i,j,l,ig0,ig,iq,iiq |
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| 141 | REAL zpsrf(ngridmx) |
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| 142 | REAL zplev(ngridmx,llm+1),zplay(ngridmx,llm) |
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| 143 | REAL zphi(ngridmx,llm),zphis(ngridmx) |
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| 144 | c |
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| 145 | REAL zufi(ngridmx,llm), zvfi(ngridmx,llm) |
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[1146] | 146 | REAL ztfi(ngridmx,llm),zqfi(ngridmx,llm,nqtot) |
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[524] | 147 | c |
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| 148 | REAL pcvgu(ngridmx,llm), pcvgv(ngridmx,llm) |
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| 149 | REAL pcvgt(ngridmx,llm), pcvgq(ngridmx,llm,2) |
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| 150 | c |
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| 151 | REAL zdufi(ngridmx,llm),zdvfi(ngridmx,llm) |
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[1146] | 152 | REAL zdtfi(ngridmx,llm),zdqfi(ngridmx,llm,nqtot) |
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[524] | 153 | REAL zdpsrf(ngridmx) |
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| 154 | c |
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[1403] | 155 | REAL zdufic(ngridmx,llm),zdvfic(ngridmx,llm) |
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| 156 | REAL zdtfic(ngridmx,llm),zdqfic(ngridmx,llm,nqtot) |
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| 157 | REAL jH_cur_split,zdt_split |
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| 158 | LOGICAL debut_split,lafin_split |
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| 159 | INTEGER isplit |
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| 160 | |
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[524] | 161 | REAL zsin(iim),zcos(iim),z1(iim) |
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| 162 | REAL zsinbis(iim),zcosbis(iim),z1bis(iim) |
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| 163 | REAL unskap, pksurcp |
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[644] | 164 | c |
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| 165 | cIM diagnostique PVteta, Amip2 |
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[1987] | 166 | INTEGER,PARAMETER :: ntetaSTD=3 |
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| 167 | REAL,SAVE :: rtetaSTD(ntetaSTD)=(/350.,380.,405./) ! Earth-specific, beware !! |
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[644] | 168 | REAL PVteta(ngridmx,ntetaSTD) |
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| 169 | c |
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[960] | 170 | REAL flxwfi(ngridmx,llm) ! Flux de masse verticale sur la grille physiq |
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[524] | 171 | c |
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| 172 | |
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| 173 | REAL SSUM |
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| 174 | |
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[1987] | 175 | LOGICAL,SAVE :: firstcal=.true., debut=.true. |
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[1279] | 176 | ! REAL rdayvrai |
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[1654] | 177 | |
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| 178 | LOGICAL tracerdyn |
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| 179 | |
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[524] | 180 | c |
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| 181 | c----------------------------------------------------------------------- |
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| 182 | c |
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| 183 | c 1. Initialisations : |
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| 184 | c -------------------- |
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| 185 | c |
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[1279] | 186 | c |
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| 187 | IF ( firstcal ) THEN |
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| 188 | debut = .TRUE. |
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| 189 | IF (ngridmx.NE.2+(jjm-1)*iim) THEN |
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[1403] | 190 | write(lunout,*) 'STOP dans calfis' |
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| 191 | write(lunout,*) |
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| 192 | & 'La dimension ngridmx doit etre egale a 2 + (jjm-1)*iim' |
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| 193 | write(lunout,*) ' ngridmx jjm iim ' |
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| 194 | write(lunout,*) ngridmx,jjm,iim |
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[524] | 195 | STOP |
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[1279] | 196 | ENDIF |
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[524] | 197 | ELSE |
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[1279] | 198 | debut = .FALSE. |
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| 199 | ENDIF ! of IF (firstcal) |
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[524] | 200 | |
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| 201 | c |
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| 202 | c |
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| 203 | c----------------------------------------------------------------------- |
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| 204 | c 40. transformation des variables dynamiques en variables physiques: |
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| 205 | c --------------------------------------------------------------- |
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| 206 | |
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| 207 | c 41. pressions au sol (en Pascals) |
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| 208 | c ---------------------------------- |
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| 209 | |
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| 210 | |
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| 211 | zpsrf(1) = pps(1,1) |
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| 212 | |
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| 213 | ig0 = 2 |
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| 214 | DO j = 2,jjm |
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| 215 | CALL SCOPY( iim,pps(1,j),1,zpsrf(ig0), 1 ) |
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| 216 | ig0 = ig0+iim |
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| 217 | ENDDO |
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| 218 | |
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| 219 | zpsrf(ngridmx) = pps(1,jjp1) |
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| 220 | |
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| 221 | |
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| 222 | c 42. pression intercouches : |
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| 223 | c |
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| 224 | c ----------------------------------------------------------------- |
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| 225 | c .... zplev definis aux (llm +1) interfaces des couches .... |
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| 226 | c .... zplay definis aux ( llm ) milieux des couches .... |
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| 227 | c ----------------------------------------------------------------- |
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| 228 | |
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| 229 | c ... Exner = cp * ( p(l) / preff ) ** kappa .... |
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| 230 | c |
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| 231 | unskap = 1./ kappa |
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| 232 | c |
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| 233 | DO l = 1, llmp1 |
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| 234 | zplev( 1,l ) = pp(1,1,l) |
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| 235 | ig0 = 2 |
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| 236 | DO j = 2, jjm |
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| 237 | DO i =1, iim |
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| 238 | zplev( ig0,l ) = pp(i,j,l) |
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| 239 | ig0 = ig0 +1 |
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| 240 | ENDDO |
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| 241 | ENDDO |
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| 242 | zplev( ngridmx,l ) = pp(1,jjp1,l) |
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| 243 | ENDDO |
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| 244 | c |
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| 245 | c |
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| 246 | |
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| 247 | c 43. temperature naturelle (en K) et pressions milieux couches . |
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| 248 | c --------------------------------------------------------------- |
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| 249 | |
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| 250 | DO l=1,llm |
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| 251 | |
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| 252 | pksurcp = ppk(1,1,l) / cpp |
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| 253 | zplay(1,l) = preff * pksurcp ** unskap |
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| 254 | ztfi(1,l) = pteta(1,1,l) * pksurcp |
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| 255 | pcvgt(1,l) = pdteta(1,1,l) * pksurcp / pmasse(1,1,l) |
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| 256 | ig0 = 2 |
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| 257 | |
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| 258 | DO j = 2, jjm |
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| 259 | DO i = 1, iim |
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| 260 | pksurcp = ppk(i,j,l) / cpp |
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| 261 | zplay(ig0,l) = preff * pksurcp ** unskap |
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| 262 | ztfi(ig0,l) = pteta(i,j,l) * pksurcp |
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| 263 | pcvgt(ig0,l) = pdteta(i,j,l) * pksurcp / pmasse(i,j,l) |
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| 264 | ig0 = ig0 + 1 |
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| 265 | ENDDO |
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| 266 | ENDDO |
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| 267 | |
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| 268 | pksurcp = ppk(1,jjp1,l) / cpp |
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| 269 | zplay(ig0,l) = preff * pksurcp ** unskap |
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| 270 | ztfi (ig0,l) = pteta(1,jjp1,l) * pksurcp |
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| 271 | pcvgt(ig0,l) = pdteta(1,jjp1,l) * pksurcp/ pmasse(1,jjp1,l) |
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| 272 | |
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| 273 | ENDDO |
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| 274 | |
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| 275 | c 43.bis traceurs |
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| 276 | c --------------- |
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| 277 | c |
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[1146] | 278 | DO iq=1,nqtot |
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[524] | 279 | iiq=niadv(iq) |
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| 280 | DO l=1,llm |
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| 281 | zqfi(1,l,iq) = pq(1,1,l,iiq) |
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| 282 | ig0 = 2 |
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| 283 | DO j=2,jjm |
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| 284 | DO i = 1, iim |
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| 285 | zqfi(ig0,l,iq) = pq(i,j,l,iiq) |
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| 286 | ig0 = ig0 + 1 |
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| 287 | ENDDO |
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| 288 | ENDDO |
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| 289 | zqfi(ig0,l,iq) = pq(1,jjp1,l,iiq) |
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| 290 | ENDDO |
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| 291 | ENDDO |
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| 292 | |
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| 293 | c convergence dynamique pour les traceurs "EAU" |
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[1279] | 294 | ! Earth-specific treatment of first 2 tracers (water) |
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| 295 | if (planet_type=="earth") then |
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| 296 | DO iq=1,2 |
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[524] | 297 | DO l=1,llm |
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| 298 | pcvgq(1,l,iq)= pdq(1,1,l,iq) / pmasse(1,1,l) |
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| 299 | ig0 = 2 |
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| 300 | DO j=2,jjm |
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| 301 | DO i = 1, iim |
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| 302 | pcvgq(ig0,l,iq) = pdq(i,j,l,iq) / pmasse(i,j,l) |
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| 303 | ig0 = ig0 + 1 |
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| 304 | ENDDO |
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| 305 | ENDDO |
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| 306 | pcvgq(ig0,l,iq)= pdq(1,jjp1,l,iq) / pmasse(1,jjp1,l) |
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| 307 | ENDDO |
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[1279] | 308 | ENDDO |
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| 309 | endif ! of if (planet_type=="earth") |
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[524] | 310 | |
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| 311 | |
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| 312 | c Geopotentiel calcule par rapport a la surface locale: |
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| 313 | c ----------------------------------------------------- |
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| 314 | |
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| 315 | CALL gr_dyn_fi(llm,iip1,jjp1,ngridmx,pphi,zphi) |
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| 316 | CALL gr_dyn_fi(1,iip1,jjp1,ngridmx,pphis,zphis) |
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| 317 | DO l=1,llm |
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[1403] | 318 | DO ig=1,ngridmx |
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| 319 | zphi(ig,l)=zphi(ig,l)-zphis(ig) |
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| 320 | ENDDO |
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[524] | 321 | ENDDO |
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| 322 | |
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| 323 | c .... Calcul de la vitesse verticale ( en Pa*m*s ou Kg/s ) .... |
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[960] | 324 | c JG : ancien calcule de omega utilise dans physiq.F. Maintenant le flux |
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| 325 | c de masse est calclue dans advtrac.F |
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| 326 | c DO l=1,llm |
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| 327 | c pvervel(1,l)=pw(1,1,l) * g /apoln |
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| 328 | c ig0=2 |
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| 329 | c DO j=2,jjm |
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| 330 | c DO i = 1, iim |
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| 331 | c pvervel(ig0,l) = pw(i,j,l) * g * unsaire(i,j) |
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| 332 | c ig0 = ig0 + 1 |
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| 333 | c ENDDO |
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| 334 | c ENDDO |
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| 335 | c pvervel(ig0,l)=pw(1,jjp1,l) * g /apols |
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| 336 | c ENDDO |
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[524] | 337 | |
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| 338 | c |
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| 339 | c 45. champ u: |
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| 340 | c ------------ |
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| 341 | |
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| 342 | DO 50 l=1,llm |
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| 343 | |
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| 344 | DO 25 j=2,jjm |
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| 345 | ig0 = 1+(j-2)*iim |
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| 346 | zufi(ig0+1,l)= 0.5 * |
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| 347 | $ ( pucov(iim,j,l)/cu(iim,j) + pucov(1,j,l)/cu(1,j) ) |
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| 348 | pcvgu(ig0+1,l)= 0.5 * |
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| 349 | $ ( pducov(iim,j,l)/cu(iim,j) + pducov(1,j,l)/cu(1,j) ) |
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| 350 | DO 10 i=2,iim |
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| 351 | zufi(ig0+i,l)= 0.5 * |
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| 352 | $ ( pucov(i-1,j,l)/cu(i-1,j) + pucov(i,j,l)/cu(i,j) ) |
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| 353 | pcvgu(ig0+i,l)= 0.5 * |
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| 354 | $ ( pducov(i-1,j,l)/cu(i-1,j) + pducov(i,j,l)/cu(i,j) ) |
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| 355 | 10 CONTINUE |
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| 356 | 25 CONTINUE |
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| 357 | |
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| 358 | 50 CONTINUE |
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| 359 | |
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| 360 | |
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| 361 | c 46.champ v: |
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| 362 | c ----------- |
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| 363 | |
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| 364 | DO l=1,llm |
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| 365 | DO j=2,jjm |
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| 366 | ig0=1+(j-2)*iim |
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| 367 | DO i=1,iim |
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| 368 | zvfi(ig0+i,l)= 0.5 * |
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| 369 | $ ( pvcov(i,j-1,l)/cv(i,j-1) + pvcov(i,j,l)/cv(i,j) ) |
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| 370 | pcvgv(ig0+i,l)= 0.5 * |
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| 371 | $ ( pdvcov(i,j-1,l)/cv(i,j-1) + pdvcov(i,j,l)/cv(i,j) ) |
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| 372 | ENDDO |
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| 373 | ENDDO |
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| 374 | ENDDO |
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| 375 | |
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| 376 | |
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| 377 | c 47. champs de vents aux pole nord |
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| 378 | c ------------------------------ |
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| 379 | c U = 1 / pi * integrale [ v * cos(long) * d long ] |
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| 380 | c V = 1 / pi * integrale [ v * sin(long) * d long ] |
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| 381 | |
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| 382 | DO l=1,llm |
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| 383 | |
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| 384 | z1(1) =(rlonu(1)-rlonu(iim)+2.*pi)*pvcov(1,1,l)/cv(1,1) |
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| 385 | z1bis(1)=(rlonu(1)-rlonu(iim)+2.*pi)*pdvcov(1,1,l)/cv(1,1) |
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| 386 | DO i=2,iim |
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| 387 | z1(i) =(rlonu(i)-rlonu(i-1))*pvcov(i,1,l)/cv(i,1) |
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| 388 | z1bis(i)=(rlonu(i)-rlonu(i-1))*pdvcov(i,1,l)/cv(i,1) |
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| 389 | ENDDO |
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| 390 | |
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| 391 | DO i=1,iim |
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| 392 | zcos(i) = COS(rlonv(i))*z1(i) |
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| 393 | zcosbis(i)= COS(rlonv(i))*z1bis(i) |
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| 394 | zsin(i) = SIN(rlonv(i))*z1(i) |
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| 395 | zsinbis(i)= SIN(rlonv(i))*z1bis(i) |
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| 396 | ENDDO |
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| 397 | |
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| 398 | zufi(1,l) = SSUM(iim,zcos,1)/pi |
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| 399 | pcvgu(1,l) = SSUM(iim,zcosbis,1)/pi |
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| 400 | zvfi(1,l) = SSUM(iim,zsin,1)/pi |
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| 401 | pcvgv(1,l) = SSUM(iim,zsinbis,1)/pi |
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| 402 | |
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| 403 | ENDDO |
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| 404 | |
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| 405 | |
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| 406 | c 48. champs de vents aux pole sud: |
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| 407 | c --------------------------------- |
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| 408 | c U = 1 / pi * integrale [ v * cos(long) * d long ] |
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| 409 | c V = 1 / pi * integrale [ v * sin(long) * d long ] |
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| 410 | |
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| 411 | DO l=1,llm |
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| 412 | |
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| 413 | z1(1) =(rlonu(1)-rlonu(iim)+2.*pi)*pvcov(1,jjm,l)/cv(1,jjm) |
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| 414 | z1bis(1)=(rlonu(1)-rlonu(iim)+2.*pi)*pdvcov(1,jjm,l)/cv(1,jjm) |
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| 415 | DO i=2,iim |
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| 416 | z1(i) =(rlonu(i)-rlonu(i-1))*pvcov(i,jjm,l)/cv(i,jjm) |
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| 417 | z1bis(i)=(rlonu(i)-rlonu(i-1))*pdvcov(i,jjm,l)/cv(i,jjm) |
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[1403] | 418 | ENDDO |
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[524] | 419 | |
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| 420 | DO i=1,iim |
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| 421 | zcos(i) = COS(rlonv(i))*z1(i) |
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| 422 | zcosbis(i) = COS(rlonv(i))*z1bis(i) |
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| 423 | zsin(i) = SIN(rlonv(i))*z1(i) |
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| 424 | zsinbis(i) = SIN(rlonv(i))*z1bis(i) |
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[1403] | 425 | ENDDO |
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[524] | 426 | |
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| 427 | zufi(ngridmx,l) = SSUM(iim,zcos,1)/pi |
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| 428 | pcvgu(ngridmx,l) = SSUM(iim,zcosbis,1)/pi |
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| 429 | zvfi(ngridmx,l) = SSUM(iim,zsin,1)/pi |
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| 430 | pcvgv(ngridmx,l) = SSUM(iim,zsinbis,1)/pi |
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| 431 | |
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| 432 | ENDDO |
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[644] | 433 | c |
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[1279] | 434 | if (planet_type=="earth") then |
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[1617] | 435 | #ifdef CPP_PHYS |
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| 436 | ! PVtheta calls tetalevel, which is in the physics |
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[644] | 437 | cIM calcul PV a teta=350, 380, 405K |
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| 438 | CALL PVtheta(ngridmx,llm,pucov,pvcov,pteta, |
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| 439 | $ ztfi,zplay,zplev, |
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| 440 | $ ntetaSTD,rtetaSTD,PVteta) |
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[1617] | 441 | #endif |
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[1279] | 442 | endif |
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[644] | 443 | c |
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[960] | 444 | c On change de grille, dynamique vers physiq, pour le flux de masse verticale |
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[524] | 445 | CALL gr_dyn_fi(llm,iip1,jjp1,ngridmx,flxw,flxwfi) |
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| 446 | |
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| 447 | c----------------------------------------------------------------------- |
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| 448 | c Appel de la physique: |
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| 449 | c --------------------- |
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| 450 | |
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| 451 | |
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[1403] | 452 | |
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[1407] | 453 | ! write(lunout,*) 'PHYSIQUE AVEC NSPLIT_PHYS=',nsplit_phys |
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[1403] | 454 | zdt_split=dtphys/nsplit_phys |
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| 455 | zdufic(:,:)=0. |
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| 456 | zdvfic(:,:)=0. |
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| 457 | zdtfic(:,:)=0. |
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| 458 | zdqfic(:,:,:)=0. |
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| 459 | |
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[1615] | 460 | #ifdef CPP_PHYS |
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[1403] | 461 | |
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[1615] | 462 | do isplit=1,nsplit_phys |
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| 463 | |
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[1403] | 464 | jH_cur_split=jH_cur+(isplit-1) * dtvr / (daysec *nsplit_phys) |
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| 465 | debut_split=debut.and.isplit==1 |
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| 466 | lafin_split=lafin.and.isplit==nsplit_phys |
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| 467 | |
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[1654] | 468 | if (planet_type=="earth") then |
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| 469 | |
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[1403] | 470 | CALL physiq (ngridmx, |
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[524] | 471 | . llm, |
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[1403] | 472 | . debut_split, |
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| 473 | . lafin_split, |
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[1279] | 474 | . jD_cur, |
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[1403] | 475 | . jH_cur_split, |
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| 476 | . zdt_split, |
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[524] | 477 | . zplev, |
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| 478 | . zplay, |
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| 479 | . zphi, |
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| 480 | . zphis, |
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| 481 | . presnivs, |
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| 482 | . clesphy0, |
---|
| 483 | . zufi, |
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| 484 | . zvfi, |
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| 485 | . ztfi, |
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| 486 | . zqfi, |
---|
| 487 | . flxwfi, |
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| 488 | . zdufi, |
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| 489 | . zdvfi, |
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| 490 | . zdtfi, |
---|
| 491 | . zdqfi, |
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[644] | 492 | . zdpsrf, |
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| 493 | cIM diagnostique PVteta, Amip2 |
---|
| 494 | . pducov, |
---|
| 495 | . PVteta) |
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[1403] | 496 | |
---|
[1654] | 497 | else if ( planet_type=="generic" ) then |
---|
| 498 | |
---|
| 499 | CALL physiq (ngridmx, !! ngrid |
---|
| 500 | . llm, !! nlayer |
---|
| 501 | . nqtot, !! nq |
---|
| 502 | . tname, !! tracer names from dynamical core (given in infotrac) |
---|
| 503 | . debut_split, !! firstcall |
---|
| 504 | . lafin_split, !! lastcall |
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[1676] | 505 | . jD_cur, !! pday. see leapfrog |
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[1654] | 506 | . jH_cur_split, !! ptime "fraction of day" |
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| 507 | . zdt_split, !! ptimestep |
---|
| 508 | . zplev, !! pplev |
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| 509 | . zplay, !! pplay |
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| 510 | . zphi, !! pphi |
---|
| 511 | . zufi, !! pu |
---|
| 512 | . zvfi, !! pv |
---|
| 513 | . ztfi, !! pt |
---|
| 514 | . zqfi, !! pq |
---|
| 515 | . flxwfi, !! pw !! or 0. anyway this is for diagnostic. not used in physiq. |
---|
| 516 | . zdufi, !! pdu |
---|
| 517 | . zdvfi, !! pdv |
---|
| 518 | . zdtfi, !! pdt |
---|
| 519 | . zdqfi, !! pdq |
---|
| 520 | . zdpsrf, !! pdpsrf |
---|
| 521 | . tracerdyn) !! tracerdyn <-- utilite ??? |
---|
| 522 | |
---|
| 523 | endif ! of if (planet_type=="earth") |
---|
| 524 | |
---|
[1403] | 525 | zufi(:,:)=zufi(:,:)+zdufi(:,:)*zdt_split |
---|
| 526 | zvfi(:,:)=zvfi(:,:)+zdvfi(:,:)*zdt_split |
---|
| 527 | ztfi(:,:)=ztfi(:,:)+zdtfi(:,:)*zdt_split |
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| 528 | zqfi(:,:,:)=zqfi(:,:,:)+zdqfi(:,:,:)*zdt_split |
---|
| 529 | |
---|
| 530 | zdufic(:,:)=zdufic(:,:)+zdufi(:,:) |
---|
| 531 | zdvfic(:,:)=zdvfic(:,:)+zdvfi(:,:) |
---|
| 532 | zdtfic(:,:)=zdtfic(:,:)+zdtfi(:,:) |
---|
| 533 | zdqfic(:,:,:)=zdqfic(:,:,:)+zdqfi(:,:,:) |
---|
| 534 | |
---|
[1615] | 535 | enddo ! of do isplit=1,nsplit_phys |
---|
| 536 | |
---|
| 537 | #endif |
---|
| 538 | ! of #ifdef CPP_PHYS |
---|
| 539 | |
---|
[1403] | 540 | zdufi(:,:)=zdufic(:,:)/nsplit_phys |
---|
| 541 | zdvfi(:,:)=zdvfic(:,:)/nsplit_phys |
---|
| 542 | zdtfi(:,:)=zdtfic(:,:)/nsplit_phys |
---|
| 543 | zdqfi(:,:,:)=zdqfic(:,:,:)/nsplit_phys |
---|
| 544 | |
---|
[524] | 545 | |
---|
| 546 | 500 CONTINUE |
---|
| 547 | |
---|
| 548 | c----------------------------------------------------------------------- |
---|
| 549 | c transformation des tendances physiques en tendances dynamiques: |
---|
| 550 | c --------------------------------------------------------------- |
---|
| 551 | |
---|
| 552 | c tendance sur la pression : |
---|
| 553 | c ----------------------------------- |
---|
| 554 | |
---|
| 555 | CALL gr_fi_dyn(1,ngridmx,iip1,jjp1,zdpsrf,pdpsfi) |
---|
| 556 | c |
---|
| 557 | c 62. enthalpie potentielle |
---|
| 558 | c --------------------- |
---|
| 559 | |
---|
| 560 | DO l=1,llm |
---|
| 561 | |
---|
| 562 | DO i=1,iip1 |
---|
| 563 | pdhfi(i,1,l) = cpp * zdtfi(1,l) / ppk(i, 1 ,l) |
---|
| 564 | pdhfi(i,jjp1,l) = cpp * zdtfi(ngridmx,l)/ ppk(i,jjp1,l) |
---|
| 565 | ENDDO |
---|
| 566 | |
---|
| 567 | DO j=2,jjm |
---|
| 568 | ig0=1+(j-2)*iim |
---|
| 569 | DO i=1,iim |
---|
| 570 | pdhfi(i,j,l) = cpp * zdtfi(ig0+i,l) / ppk(i,j,l) |
---|
| 571 | ENDDO |
---|
| 572 | pdhfi(iip1,j,l) = pdhfi(1,j,l) |
---|
| 573 | ENDDO |
---|
| 574 | |
---|
| 575 | ENDDO |
---|
| 576 | |
---|
| 577 | |
---|
| 578 | c 62. humidite specifique |
---|
| 579 | c --------------------- |
---|
[1279] | 580 | ! Ehouarn: removed this useless bit: was overwritten at step 63 anyways |
---|
| 581 | ! DO iq=1,nqtot |
---|
| 582 | ! DO l=1,llm |
---|
| 583 | ! DO i=1,iip1 |
---|
| 584 | ! pdqfi(i,1,l,iq) = zdqfi(1,l,iq) |
---|
| 585 | ! pdqfi(i,jjp1,l,iq) = zdqfi(ngridmx,l,iq) |
---|
| 586 | ! ENDDO |
---|
| 587 | ! DO j=2,jjm |
---|
| 588 | ! ig0=1+(j-2)*iim |
---|
| 589 | ! DO i=1,iim |
---|
| 590 | ! pdqfi(i,j,l,iq) = zdqfi(ig0+i,l,iq) |
---|
| 591 | ! ENDDO |
---|
| 592 | ! pdqfi(iip1,j,l,iq) = pdqfi(1,j,l,iq) |
---|
| 593 | ! ENDDO |
---|
| 594 | ! ENDDO |
---|
| 595 | ! ENDDO |
---|
[524] | 596 | |
---|
| 597 | c 63. traceurs |
---|
| 598 | c ------------ |
---|
| 599 | C initialisation des tendances |
---|
[1279] | 600 | pdqfi(:,:,:,:)=0. |
---|
[524] | 601 | C |
---|
[1146] | 602 | DO iq=1,nqtot |
---|
[524] | 603 | iiq=niadv(iq) |
---|
| 604 | DO l=1,llm |
---|
| 605 | DO i=1,iip1 |
---|
| 606 | pdqfi(i,1,l,iiq) = zdqfi(1,l,iq) |
---|
| 607 | pdqfi(i,jjp1,l,iiq) = zdqfi(ngridmx,l,iq) |
---|
| 608 | ENDDO |
---|
| 609 | DO j=2,jjm |
---|
| 610 | ig0=1+(j-2)*iim |
---|
| 611 | DO i=1,iim |
---|
| 612 | pdqfi(i,j,l,iiq) = zdqfi(ig0+i,l,iq) |
---|
| 613 | ENDDO |
---|
| 614 | pdqfi(iip1,j,l,iiq) = pdqfi(1,j,l,iq) |
---|
| 615 | ENDDO |
---|
| 616 | ENDDO |
---|
| 617 | ENDDO |
---|
| 618 | |
---|
| 619 | c 65. champ u: |
---|
| 620 | c ------------ |
---|
| 621 | |
---|
| 622 | DO l=1,llm |
---|
| 623 | |
---|
| 624 | DO i=1,iip1 |
---|
| 625 | pdufi(i,1,l) = 0. |
---|
| 626 | pdufi(i,jjp1,l) = 0. |
---|
| 627 | ENDDO |
---|
| 628 | |
---|
| 629 | DO j=2,jjm |
---|
| 630 | ig0=1+(j-2)*iim |
---|
| 631 | DO i=1,iim-1 |
---|
| 632 | pdufi(i,j,l)= |
---|
| 633 | $ 0.5*(zdufi(ig0+i,l)+zdufi(ig0+i+1,l))*cu(i,j) |
---|
| 634 | ENDDO |
---|
| 635 | pdufi(iim,j,l)= |
---|
| 636 | $ 0.5*(zdufi(ig0+1,l)+zdufi(ig0+iim,l))*cu(iim,j) |
---|
| 637 | pdufi(iip1,j,l)=pdufi(1,j,l) |
---|
| 638 | ENDDO |
---|
| 639 | |
---|
| 640 | ENDDO |
---|
| 641 | |
---|
| 642 | |
---|
| 643 | c 67. champ v: |
---|
| 644 | c ------------ |
---|
| 645 | |
---|
| 646 | DO l=1,llm |
---|
| 647 | |
---|
| 648 | DO j=2,jjm-1 |
---|
| 649 | ig0=1+(j-2)*iim |
---|
| 650 | DO i=1,iim |
---|
| 651 | pdvfi(i,j,l)= |
---|
| 652 | $ 0.5*(zdvfi(ig0+i,l)+zdvfi(ig0+i+iim,l))*cv(i,j) |
---|
| 653 | ENDDO |
---|
| 654 | pdvfi(iip1,j,l) = pdvfi(1,j,l) |
---|
| 655 | ENDDO |
---|
| 656 | ENDDO |
---|
| 657 | |
---|
| 658 | |
---|
| 659 | c 68. champ v pres des poles: |
---|
| 660 | c --------------------------- |
---|
| 661 | c v = U * cos(long) + V * SIN(long) |
---|
| 662 | |
---|
| 663 | DO l=1,llm |
---|
| 664 | |
---|
| 665 | DO i=1,iim |
---|
| 666 | pdvfi(i,1,l)= |
---|
| 667 | $ zdufi(1,l)*COS(rlonv(i))+zdvfi(1,l)*SIN(rlonv(i)) |
---|
| 668 | pdvfi(i,jjm,l)=zdufi(ngridmx,l)*COS(rlonv(i)) |
---|
| 669 | $ +zdvfi(ngridmx,l)*SIN(rlonv(i)) |
---|
| 670 | pdvfi(i,1,l)= |
---|
| 671 | $ 0.5*(pdvfi(i,1,l)+zdvfi(i+1,l))*cv(i,1) |
---|
| 672 | pdvfi(i,jjm,l)= |
---|
| 673 | $ 0.5*(pdvfi(i,jjm,l)+zdvfi(ngridmx-iip1+i,l))*cv(i,jjm) |
---|
| 674 | ENDDO |
---|
| 675 | |
---|
| 676 | pdvfi(iip1,1,l) = pdvfi(1,1,l) |
---|
| 677 | pdvfi(iip1,jjm,l)= pdvfi(1,jjm,l) |
---|
| 678 | |
---|
| 679 | ENDDO |
---|
| 680 | |
---|
| 681 | c----------------------------------------------------------------------- |
---|
| 682 | |
---|
| 683 | 700 CONTINUE |
---|
| 684 | |
---|
| 685 | firstcal = .FALSE. |
---|
| 686 | |
---|
| 687 | RETURN |
---|
| 688 | END |
---|